Programmed Ventricular Stimulation to Risk Stratify for Early Cardioverter-Defibrillator (ICD) Implantation to Prevent Tachyarrhythmias Following Acute Myocardial Infarction (PROTECT-ICD)

Not Applicable

Recruiting

• Conditions: Sudden Cardiac Death
• Interventions: Procedure: Electrophysiology study (EPS); Other: Standard Care; Procedure: Cardiac Magnetic Resonance (CMR)

• Registration Number: NCT03588286
• Lead Sponsor: Western Sydney Local Health District

Brief Summary

The PROTECT-ICD trial is a physician-led, multi-centre randomised controlled trial targeting prevention of sudden cardiac death in patients who have poor cardiac function following a myocardial infarct (MI). The trial aims to assess the role of electrophysiology study (EPS) in guiding implantable cardioverter-defibrillator (ICD) implantation, in patients early following MI (first 40 days). The secondary aim is to assess the utility of cardiac MRI (CMR) in analysing cardiac function and viability as well as predicting inducible and spontaneous ventricular tachyarrhythmia when performed early post MI.

Following a MI patients are at high risk of sudden cardiac death (SCD). The risk is highest in the first 40 days; however, current guidelines exclude patients from receiving an ICD during this time. This limitation is based largely on a single study, The Defibrillator in Acute Myocardial Infarction Trial (DINAMIT), which failed to demonstrate a benefit of early ICD implantation. However, this study was underpowered and used non-invasive tests to identify patients at high risk. EPS identifies patients with the substrate for re-entrant tachyarrhythmia, and has been found in multiple studies to predict patients at risk of SCD. Contrast-enhanced CMR is a non-invasive test without radiation exposure which can be used to assess left ventricular function. In addition, it provides information on myocardial viability, scar size and tissue heterogeneity. It has an emerging role as a predictor of mortality and spontaneous ventricular arrhythmia in patients with a previous MI.

A total of 1,058 patients who are at high risk of SCD based on poor cardiac function (left ventricular ejection fraction (LVEF) ≤40%) following a ST-elevation or non-STE myocardial infarct will be enrolled in the trial. Patients will be randomised 1:1 to either the intervention or control arm.

In the intervention arm all patients undergo early EPS. Patients with a positive study (inducible ventricular tachycardia cycle length ≥200ms) receive an ICD, while patients with a negative study (inducible ventricular fibrillation or no inducible VT) are discharged without an ICD, regardless of the LVEF.

In the control arm patients are treated according to standard local practice. This involves early discharge and repeat assessment of cardiac function after 40 days or after 90 days following revascularisation (PCI or CABG). ICD implantation after 40 days according to current guidelines (LVEF≤30%, or ≤35% with New York Heart Association (NYHA) class II/III symptoms) could be considered, if part of local standard practice, however the ICD is not funded by the trial.

A proportion of trial patients from both the intervention and control arms at \>48 hours following MI will undergo CMR to enable correlation with (1) inducible VT at EPS and (2) SCD and non-fatal arrhythmia on follow up. It will be used to simultaneously assess left ventricular function, ventricular strain, myocardial infarction size, and peri-infarction injury. The size of the infarct core, infarct gray zone (as a measure of tissue heterogeneity) and total infarct size will be quantified for each patient.

All patients will be followed for 2 years with a combined primary endpoint of non-fatal arrhythmia and SCD. Non-fatal arrhythmia includes resuscitated cardiac arrest, sustained ventricular tachycardia (VT) and ventricular fibrillation (VF) in participants without an ICD. Secondary endpoints will include all-cause mortality, non-sudden cardiovascular death, non-fatal repeat MI, heart failure and inappropriate ICD denial. Secondary endpoints for CMR correlation will include (1) the presence or absence of inducible VT at EP study, and (2) combined endpoint of appropriate ICD activation or SCD at follow up.

It is anticipated that the intervention arm will reduce the primary endpoint as a result of prevention of a) early sudden cardiac deaths/cardiac arrest, and b) sudden cardiac death/cardiac arrest in patients with a LVEF of 31-40%. It is expected that the 2-year primary endpoint rate will be reduced from 6.7% in the control arm to 2.8% in the intervention arm with a relative risk reduction (RRR) of 68%. A two-group chi-squared test with a 0.05 two-sided significance level will have 80% power to detect the difference between a Group 1 proportion of 0.028 experiencing the primary endpoint and a Group 2 proportion of 0.067 experiencing the primary endpoint when the sample size in each group is 470. Assuming 1% crossover and 10% loss to follow up the required sample size is 1,058 (n=529 patients per arm). To test the hypothesis that tissue heterogeneity at CMR predicts both inducible and spontaneous ventricular tachyarrhythmias will require a sample size of 400 patients to undergo CMR.

It is anticipated that the use of EPS will select a group of patients who will benefit from an ICD soon after a MI. This has the potential to change clinical guidelines and save a large number of lives.

Detailed Description

Not available

Study Timeline

• Study Start: 2014-02-27
• Study First Submitted: 2018-07-04
• Study First Submitted QC: 2018-07-04
• Study First Posted: 2018-07-17
• Status Verified: 2024-05
• Last Update Submitted: 2024-05-06
• Last Update Posted: 2024-05-07
• Primary Completion: 2027-12-06
• Study Completion: 2029-12-06

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 1058

Inclusion Criteria

• 2-40 days (inclusive) following a myocardial infarct
• Impaired left ventricular systolic function (LVEF≤40% or at least moderately impaired)

Exclusion Criteria

1. Age <18 or >85;
2. Pregnancy;
3. Nursing home resident dependent on one or more activities of daily living;
4. Significant non-cardiac co-morbidity with high likelihood of death within 1 year (this would include any metastatic malignancy, or other terminal disease);
5. Significant psychiatric illnesses that may be aggravated by device implantation or that may preclude regular follow up;
6. Intravenous drug abuse (ongoing);
7. Unresolved infection associated with risk for hematogenous seeding;
8. Pre-existing implantable cardioverter-defibrillator (ICD);
9. Secondary prevention indication for an ICD (i.e. sustained ventricular arrhythmias occurring more than 48 hours after qualifying myocardial infarction (patients with ventricular arrhythmias occurring ≤48 hours of myocardial infarction, or with non-sustained ventricular tachycardia at any time, are not excluded));
10. On the heart transplant list;
11. Recurrent unstable angina despite revascularisation (defined as ongoing chest pain or ischemic symptoms at rest or with minimal exertion despite adequate treatment with anti-anginal medications);**
12. Congestive heart failure New York Heart Association class IV, defined as shortness of breath at rest, which is refractory to medical treatment (not responding to treatment)** **NOTE: patients who meet exclusion based on (11) or (12) can be reviewed again in 2-3 days and if symptoms have resolved or treatment performed can be re-considered for inclusion.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Intervention Arm (Early EPS)	Electrophysiology study (EPS)	The intervention group all undergo electrophysiologic study early after myocardial infarction (within 40 days of MI). If the study is positive (inducible monomorphic ventricular tachycardia of cycle length greater than or equal to 200ms) participants have an ICD implanted. Participants with a negative study (no inducible arrhythmia or induced ventricular fibrillation/ ventricular flutter cycle length \<200ms) are discharged without an ICD. A proportion of trial patients from both the intervention and control arms at \>48 hours following revascularisation for STEMI will undergo CMR to enable correlation with (1) inducible VT at EPS and (2) SCD and non-fatal arrhythmia on follow up. CMR will simultaneously assess left ventricular function, ventricular strain, myocardial infarction size, and peri-infarction injury.
Control Arm (Standard Care)	Cardiac Magnetic Resonance (CMR)	The control group receive ongoing standard care according to the practise of their institution. This includes discharge from hospital as per their treating physician and follow up as usual in the community. Participants in this group would be eligible to receive an ICD according to the standard practise of their cardiologist (guideline recommendations are after 40 days following myocardial infarction or 90 days following revascularisation only in patients with left ventricular ejection fraction less than or equal to 30% or less than or equal to 35% in the presence of heart failure). A proportion of trial patients from both the intervention and control arms at \>48 hours following revascularisation for STEMI will undergo CMR to enable correlation with (1) inducible VT at EPS and (2) SCD and non-fatal arrhythmia on follow up. CMR will simultaneously assess left ventricular function, ventricular strain, myocardial infarction size, and peri-infarction injury.
Intervention Arm (Early EPS)	Cardiac Magnetic Resonance (CMR)	The intervention group all undergo electrophysiologic study early after myocardial infarction (within 40 days of MI). If the study is positive (inducible monomorphic ventricular tachycardia of cycle length greater than or equal to 200ms) participants have an ICD implanted. Participants with a negative study (no inducible arrhythmia or induced ventricular fibrillation/ ventricular flutter cycle length \<200ms) are discharged without an ICD. A proportion of trial patients from both the intervention and control arms at \>48 hours following revascularisation for STEMI will undergo CMR to enable correlation with (1) inducible VT at EPS and (2) SCD and non-fatal arrhythmia on follow up. CMR will simultaneously assess left ventricular function, ventricular strain, myocardial infarction size, and peri-infarction injury.
Control Arm (Standard Care)	Standard Care	The control group receive ongoing standard care according to the practise of their institution. This includes discharge from hospital as per their treating physician and follow up as usual in the community. Participants in this group would be eligible to receive an ICD according to the standard practise of their cardiologist (guideline recommendations are after 40 days following myocardial infarction or 90 days following revascularisation only in patients with left ventricular ejection fraction less than or equal to 30% or less than or equal to 35% in the presence of heart failure). A proportion of trial patients from both the intervention and control arms at \>48 hours following revascularisation for STEMI will undergo CMR to enable correlation with (1) inducible VT at EPS and (2) SCD and non-fatal arrhythmia on follow up. CMR will simultaneously assess left ventricular function, ventricular strain, myocardial infarction size, and peri-infarction injury.

Primary Outcome Measures

Name	Time	Method
Sudden cardiac death	2 years after randomisation	Cause of death will be determined based on information obtained from witnesses, family members, death certificates, hospital records and autopsy or coroner reports. Sudden cardiac death will be explicitly defined as death that occurs "suddenly and unexpectedly" in a patient in otherwise stable condition and includes witnessed instantaneous deaths (with or without documentation of arrhythmia), unwitnessed deaths if the patient had been seen within 24 hours before death (in the absence of another clear cause of death), deaths caused by incessant ventricular tachyarrhythmia, deaths considered a sequel of cardiac arrest and deaths resulting from pro-arrhythmia of anti-arrhythmic drugs.31 The remainder of deaths will be classified as either non-sudden cardiovascular death, or non-cardiovascular death. Operative deaths associated with the implantation of an ICD will be counted as non-sudden cardiovascular death.
Non-fatal arrhythmia	2 years after randomisation	Non-fatal arrhythmia includes resuscitated cardiac arrest, sustained ventricular tachycardia (VT) and ventricular fibrillation (VF) in participants without an ICD. Resuscitated cardiac arrest is defined as a sudden circulatory arrest requiring cardiopulmonary resuscitation (CPR) (with or without documented arrhythmia) from which the patient regains consciousness. VT and VF are defined as ECG or telemetry-documented ventricular tachycardia or ventricular fibrillation. Only sustained ventricular tachycardia will be included (greater than 30 seconds of VT) or if the VT required emergency treatment with anti-arrhythmic medications or electrical cardioversion.

Secondary Outcome Measures

Name	Time	Method
All-cause mortality	2 years after randomisation	All deaths.
Non-fatal repeat MI	2 years after randomisation	Non-fatal repeat MI requires the presence of two of the following three: symptoms of myocardial ischaemia, a characteristic rise and fall in cardiac markers and a typical ECG pattern involving the development of Q waves or persistent T wave changes.
Heart failure	2 years after randomisation	Heart failure is defined as symptoms or signs consistent with congestive heart failure with use of intravenous decongestive therapy greater than 2 hours (IV diuretics, IV nesiritide, IV inotropes) in a patient not requiring hospital admission, or, augmented heart failure regimen with oral or intravenous medications in patients requiring hospital admission.
Complications or re-hospitalisation associated with ICD implantation (in patients with ICD)	2 years after randomisation	Complications or re-hospitalisation associated with ICD implantation (in patients with ICD)
Non-sudden cardiovascular death	2 years after randomisation	Non-sudden cardiovascular deaths will be classified as death due to myocardial infarction, heart failure or another cardiovascular cause including cerebrovascular or peripheral vascular causes.
Inappropriate ICD denial	2 years after randomisation	Inappropriate ICD denial will be defined as patients who did not receive an ICD based on their intervention allocation, who went on to have documented non-fatal arrhythmia or sudden cardiac death.
Appropriate ICD activations (in patients with ICD)	2 years after randomisation	Appropriate ICD activation will be defined as ventricular tachyarrhythmia due to VT which meets the treatment criteria defined above or VF.
Inappropriate ICD activations (in patients with ICD)	2 years after randomisation	Inappropriate ICD activations will include supra-ventricular tachycardia, atrial fibrillation/flutter, T wave over-sensing, sinus tachycardia and noise from lead complications or extraneous noise.

Trial Locations

Locations (52)

Beth Israel Deaconess Medical Center; 🇺🇸 Boston, Massachusetts, United States

Royal Brisbane and Women's Hospital; 🇦🇺 Herston, Queensland, Australia

Nepean Hospital; 🇦🇺 Kingswood, New South Wales, Australia

John Hunter Hospital; 🇦🇺 New Lambton Heights, New South Wales, Australia

Prince of Wales Hospital; 🇦🇺 Randwick, New South Wales, Australia

Royal North Shore Hospital; 🇦🇺 Saint Leonards, New South Wales, Australia

The Prince Charles Hospital; 🇦🇺 Chermside, Queensland, Australia

Westmead Hospital; 🇦🇺 Westmead, New South Wales, Australia

Carins Hospital; 🇦🇺 Cairns, Queensland, Australia

Sunshine Coast University Hospital; 🇦🇺 Birtinya, Queensland, Australia

Wollongong Hospital; 🇦🇺 Wollongong, New South Wales, Australia

The Townsville Hospital; 🇦🇺 Douglas, Queensland, Australia

Gold Coast University Hospital; 🇦🇺 Southport, Queensland, Australia

Princess Alexandra Hospital; 🇦🇺 Woolloongabba, Queensland, Australia

Lyell McEwin Hospital; 🇦🇺 Elizabeth Vale, South Australia, Australia

MonashHeart; 🇦🇺 Clayton, Victoria, Australia

Northern Hospital; 🇦🇺 Epping, Victoria, Australia

Austin Hospital; 🇦🇺 Melbourne, Victoria, Australia

Western Health, Sunshine and Footscray Hospitals; 🇦🇺 Melbourne, Victoria, Australia

Cardiovascular Center Bad Neustadt; 🇩🇪 Bad Neustadt An Der Saale, Germany

Institute for Clinical and Experimental Medicine; 🇨🇿 Prague, Czechia

Klinikum Brandenburg; 🇩🇪 Brandenburg, Germany

Universitaetsmedizin Gittingen (University of Göttingen Medical Center); 🇩🇪 Göttingen, Germany

Leipzig Heart Center; 🇩🇪 Leipzig, Germany

University Hospital of Heraklion Crete; 🇬🇷 Iraklio, Greece

Universitätsklinikum Leipzig; 🇩🇪 Leipzig, Germany

General Hospital of Athens Giorgios Gennimatas; 🇬🇷 Athens, Greece

General Hospital of Athens Ippokrateio; 🇬🇷 Athens, Greece

University of Debrecen; 🇭🇺 Debrecen, Hungary

Semmelweis University Heart and Vascular Center; 🇭🇺 Budapest, Hungary

University of Pécs; 🇭🇺 Pécs, Hungary

Sharee Zadek Medical Centre; 🇮🇱 Jerusalem, Israel

Paul Stradins University Clinic; 🇱🇻 Riga, Latvia

Institut Jantung Negara Sdn Bhd; 🇲🇾 Kuala Lumpur, Malaysia

Pusat Jantung Sarawak (PJS)(Sarawak Heart Centre); 🇲🇾 Kuala Lumpur, Malaysia

Auckland City Hospital; 🇳🇿 Grafton, Auckland, New Zealand

Middlemore Hospital; 🇳🇿 Otahuhu, Auckland, New Zealand

Waikato Hospital; 🇳🇿 Hamilton W., Hamilton, New Zealand

Christchurch Hospital; 🇳🇿 Christchurch, New Zealand

Medical University of Łódź - Biegański Provincial Specialist Hospital; 🇵🇱 Łódź, Poland

National Institute of Cardiology Warsaw; 🇵🇱 Warszawa, Poland

Wellington Hospital; 🇳🇿 Wellington, New Zealand

Medical University of Łódź - WAM Hospital; 🇵🇱 Łódź, Poland

Almazov National Medical Research Centre; 🇷🇺 Saint Petersburg, Russian Federation

Medical University of Łódź; 🇵🇱 Łódź, Poland

Samara State Medical University; 🇷🇺 Samara, Russian Federation

University Hospital Basel; 🇨🇭 Basel, Switzerland

National University Heart Centre, Singapore (NUHCS); 🇸🇬 Singapore, Singapore

The National Institute of Cardiovascular Diseases; 🇸🇰 Bratislava, Slovakia

University Hospital Bern; 🇨🇭 Bern, Switzerland

Lausanne University Hospital; 🇨🇭 Lausanne, Switzerland

Canberra Hospital; 🇦🇺 Garran, Australian Capital Territory, Australia